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Kammann, Sandra; Karsten, Ulf; Glaser, Karin; Schiefelbein, Ulf; Hassenrück, Christiane; Mikhailyuk, Tatiana; Demchenko, Eduardo; Dolnik, Christian; Leinweber, Peter (2022): Morphological determination of the phototrophic community composition of biological soil crusts in coastal sand dunes in northern Germany [dataset]. PANGAEA, https://doi.org/10.1594/PANGAEA.947829, In: Kammann, S et al. (2022): Microbial community composition of biological soil crusts in coastal sand dunes in northern Germany [dataset bundled publication]. PANGAEA, https://doi.org/10.1594/PANGAEA.947840

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Abstract:
This dataset comprises the microbial community composition of biological soil crusts in north-German sand dunes. For this we obtained enrichment cultures of phototrophic microorganisms, by placing fragments of biocrusts of the same Petri dishes as used for sequencing, in Petri dishes with Bold Basal (1N BBM) agarized medium (Bischoff and Bold 1963). Cultures were grown under standard laboratory conditions: with a 12-hour alteration of light and dark phases and irradiation of 25 μmol photons m-2 s-1 at a temperature 20 ± 5 ºС. Microscopic study of these raw cultures began in the third week of cultivation. Morphological examinations were performed using Olympus BX53 light microscope with Nomarski DIC optics (Olympus Ltd, Hamburg, Germany). Micrographs were taken with a digital camera (Olympus LC30) attached to the microscope, and processed by the Olympus software cellSens Entry. Direct microscopy of rewetted samples was performed in parallel with cultivation for evaluation of dominating species of algae and cyanobacteria in the original samples. Morphological identification of the biocrust organisms was based mainly on Ettl and Gärtner (2014) for green microalgae, and on Komárek (2013) for cyanobacteria, as well as on some monographs and papers devoted to taxonomic revisions of the taxa of interest (Darienko and Pröschold 2019). Moss and lichens samples were air-dried after collection. For determination, a microscope with a maximum magnification of 400x was used. Morphological identification of mosses followed Frahm and Frey (2004) with taxonomical reference to (Hodgetts et al. 2020). Lichens were determined according to Wirth et al. (2013). Morphologically critical species of the genus Cladonia where additionally analyzed by thin-layer chromatography according to (Culberson and Ammann 1979) in solvent system A.
Keyword(s):
16S rRNA; algae; Crusts; dune; sediment analysis; soil ecology
Further details:
Bischoff, Harry W; Bold, Harold C (accepted): Some soil algae from Enchanted Rock and related algal species. Phycological Studies, 4, 1-95, https://cir.nii.ac.jp/crid/1572261548983272960
Culberson, C H; Ammann, Klaus (1979): A standard method for analysing lichen substances with thin layer chromatography. Herzogia, 5(1-2), 1-24, https://doi.org/10.1127/herzogia/5/1979/1
Ettl, Hanuš; Gärtner, Georg (accepted): Syllabus der Boden-, Luft- und Flechtenalgen. Springer Berlin Heidelberg, Berlin, Heidelberg, Spektrum Akademischer Verlag, 1-773, https://doi.org/10.1007/978-3-642-39462-1
Frahm, J P; Frey, W (2004): Moosflora. Ulmer UTB, 1-538
Hodgetts, N G; Söderström, L; Blockeel, T L; Caspari, Steffen; Ignatov, M S; Konstantinova, N A; Lockhart, N; Papp, B; Schröck, C; Sim-Sim, M; Bell, Daniel; Bell, N E; Blom, H H; Bruggeman-Nannenga, M A; Brugués, M; Enroth, J; Flatberg, K I; Garilleti, R; Hedenäs, L; Holyoak, D T; Hugonnot, V; Kariyawasam, I; Köckinger, H; Kučera, J; Lara, F; Porley, R D (2020): An annotated checklist of bryophytes of Europe, Macaronesia and Cyprus. Journal of Bryology, 42(1), 1-116, https://doi.org/10.1080/03736687.2019.1694329
Komárek, Jirí (accepted): Cyanoprokaryota. 3rd pt: Heterocytous genera. Süsswasserflora von Mitteleuropa, 19/3, 1-1130
Tatayana, Darienko; Pröschold, Thomas; De Clerck, Olivier (2019): Reevaluation and discovery of new species of the rare genus Watanabea and establishment of Massjukichlorella gen. nov. (Trebouxiophyceae, Chlorophyta) using an integrative approach. Journal of Phycology, 55(2), 493-499, https://doi.org/10.1111/jpy.12830
Wirth, Volkmar; Hauck, Markus; Schultz, Matthias (2013): Die Flechten Deutschlands. Eugen Ulmer, Stuttgart, 1-1244
Coverage:
Median Latitude: 54.321713 * Median Longitude: 12.560339 * South-bound Latitude: 52.938231 * West-bound Longitude: 9.249200 * North-bound Latitude: 54.605357 * East-bound Longitude: 13.569430
Date/Time Start: 2020-04-25T00:00:00 * Date/Time End: 2020-05-05T00:00:00
Minimum Elevation: -2.0 m * Maximum Elevation: 38.0 m
Event(s):
DOBD * Latitude: 54.471083 * Longitude: 12.499750 * Date/Time: 2021-01-20T00:00:00 * Elevation: -1.0 m * Location: Darßer Ort, Mecklenburg Western Pomerania, Germany * Method/Device: Field experiment
DOeGD * Latitude: 54.472000 * Longitude: 12.499917 * Date/Time: 2021-01-20T00:00:00 * Elevation: 0.0 m * Location: Darßer Ort, Mecklenburg Western Pomerania, Germany * Method/Device: Field experiment
DOlGD * Latitude: 54.471722 * Longitude: 12.499972 * Date/Time: 2021-01-20T00:00:00 * Elevation: 0.0 m * Location: Darßer Ort, Mecklenburg Western Pomerania, Germany * Method/Device: Field experiment
Comment:
Encoding for species composition: presence = 1, absence = 0
Parameter(s):
#NameShort NameUnitPrincipal InvestigatorMethod/DeviceComment
1Event labelEventKammann, Sandra
2DATE/TIMEDate/TimeKammann, SandraGeocode
3Latitude of eventLatitudeKammann, Sandra
4Longitude of eventLongitudeKammann, Sandra
5Elevation of eventElevationmKammann, Sandra
6LocationLocationKammann, Sandra
7SiteSiteKammann, Sandra
8Actinochloris terrestrisA. terrestrisMikahailyuk, TatianaLight microscope, Olympus Ltd, BX53, with Nomarski DIC opticsChlorophyta; Morphological examinations were performed using Olympus BX53 light microscope with Nomarski DIC optics (Olympus Ltd, Hamburg, Germany)
9Amandinea punctataA. punctataSchiefelbein, UlfThin layer chromatographyLichens, Ascomycota (mycobiont); Lichens were determined according to Wirth et al. (2013). Morphologically critical species of the genus Cladonia where additionally analyzed by thin-layer chromatography according to (Culberson and Ammann 1979) in solvent system A
10Asterococcus sp.Asterococcus sp.Mikahailyuk, TatianaLight microscope, Olympus Ltd, BX53, with Nomarski DIC opticsChlorophyta; Morphological examinations were performed using Olympus BX53 light microscope with Nomarski DIC optics (Olympus Ltd, Hamburg, Germany)
11Bacidina etayanaB. etayanaSchiefelbein, UlfThin layer chromatographyLichens, Ascomycota (mycobiont); Lichens were determined according to Wirth et al. (2013). Morphologically critical species of the genus Cladonia where additionally analyzed by thin-layer chromatography according to (Culberson and Ammann 1979) in solvent system A
12Brachythecium albicansB. albicansDolnik, ChristianLight microscopeMosses, Bryophyta; microscope with a maximum magnification of 400x was used. Morphological identification of mosses followed Frahm and Frey (2004) with taxonomical reference to (Hodgetts et al. 2020).
13Bracteacoccus sp.Bracteacoccus sp.Mikahailyuk, TatianaLight microscope, Olympus Ltd, BX53, with Nomarski DIC opticsChlorophyta; Morphological examinations were performed using Olympus BX53 light microscope with Nomarski DIC optics (Olympus Ltd, Hamburg, Germany)
14Bryum capillareB. capillareDolnik, ChristianLight microscopeMosses, Bryophyta; microscope with a maximum magnification of 400x was used. Morphological identification of mosses followed Frahm and Frey (2004) with taxonomical reference to (Hodgetts et al. 2020).
15Caloplaca cerinellaC. cerinellaSchiefelbein, UlfThin layer chromatographyLichens, Ascomycota (mycobiont); Lichens were determined according to Wirth et al. (2013). Morphologically critical species of the genus Cladonia where additionally analyzed by thin-layer chromatography according to (Culberson and Ammann 1979) in solvent system A
16Campylopus introflexusC. introflexusDolnik, ChristianLight microscopeMosses, Bryophyta; microscope with a maximum magnification of 400x was used. Morphological identification of mosses followed Frahm and Frey (2004) with taxonomical reference to (Hodgetts et al. 2020).
17Cephaloziella divaricataC. divaricataDolnik, ChristianLight microscopeMosses, Marchantiophyta; microscope with a maximum magnification of 400x was used. Morphological identification of mosses followed Frahm and Frey (2004) with taxonomical reference to (Hodgetts et al. 2020).
18Ceratodon purpureusC. purpureusDolnik, ChristianLight microscopeMosses, Bryophyta; microscope with a maximum magnification of 400x was used. Morphological identification of mosses followed Frahm and Frey (2004) with taxonomical reference to (Hodgetts et al. 2020).
19Chlorella vulgarisC. vulgarisMikahailyuk, TatianaLight microscope, Olympus Ltd, BX53, with Nomarski DIC opticsChlorophyta; Morphological examinations were performed using Olympus BX53 light microscope with Nomarski DIC optics (Olympus Ltd, Hamburg, Germany)
20Chlorococcum sp.Chlorococcum sp.Mikahailyuk, TatianaLight microscope, Olympus Ltd, BX53, with Nomarski DIC opticsChlorophyta; Morphological examinations were performed using Olympus BX53 light microscope with Nomarski DIC optics (Olympus Ltd, Hamburg, Germany)
21Chloroidium cf. ellipsoideumC. cf. ellipsoideumMikahailyuk, TatianaLight microscope, Olympus Ltd, BX53, with Nomarski DIC opticsChlorophyta; Morphological examinations were performed using Olympus BX53 light microscope with Nomarski DIC optics (Olympus Ltd, Hamburg, Germany)
22Chlorokybus atmophyticusC. atmophyticusMikahailyuk, TatianaLight microscope, Olympus Ltd, BX53, with Nomarski DIC opticsStreptophyta/Charophyta; Morphological examinations were performed using Olympus BX53 light microscope with Nomarski DIC optics (Olympus Ltd, Hamburg, Germany)
23Chlorolobion sp.Chlorolobion sp.Mikahailyuk, TatianaLight microscope, Olympus Ltd, BX53, with Nomarski DIC opticsChlorophyta; Morphological examinations were performed using Olympus BX53 light microscope with Nomarski DIC optics (Olympus Ltd, Hamburg, Germany)
24Cladonia arbusculaC. arbusculaSchiefelbein, UlfThin layer chromatographyLichens, Ascomycota (mycobiont); Lichens were determined according to Wirth et al. (2013). Morphologically critical species of the genus Cladonia where additionally analyzed by thin-layer chromatography according to (Culberson and Ammann 1979) in solvent system A
25Cladonia chlorophaeaC. chlorophaeaSchiefelbein, UlfThin layer chromatographyLichens, Ascomycota (mycobiont); Lichens were determined according to Wirth et al. (2013). Morphologically critical species of the genus Cladonia where additionally analyzed by thin-layer chromatography according to (Culberson and Ammann 1979) in solvent system A
26Cladonia ciliataC. ciliataSchiefelbein, UlfThin layer chromatographyLichens, Ascomycota (mycobiont); Lichens were determined according to Wirth et al. (2013). Morphologically critical species of the genus Cladonia where additionally analyzed by thin-layer chromatography according to (Culberson and Ammann 1979) in solvent system A
27Cladonia cocciferaC. cocciferaSchiefelbein, UlfThin layer chromatographyLichens, Ascomycota (mycobiont); Lichens were determined according to Wirth et al. (2013). Morphologically critical species of the genus Cladonia where additionally analyzed by thin-layer chromatography according to (Culberson and Ammann 1979) in solvent system A
28Cladonia conistaC. conistaSchiefelbein, UlfThin layer chromatographyLichens, Ascomycota (mycobiont); Lichens were determined according to Wirth et al. (2013). Morphologically critical species of the genus Cladonia where additionally analyzed by thin-layer chromatography according to (Culberson and Ammann 1979) in solvent system A
29Cladonia fimbriataC. fimbriataSchiefelbein, UlfThin layer chromatographyLichens, Ascomycota (mycobiont); Lichens were determined according to Wirth et al. (2013). Morphologically critical species of the genus Cladonia where additionally analyzed by thin-layer chromatography according to (Culberson and Ammann 1979) in solvent system A
30Cladonia floerkeanaC. floerkeanaSchiefelbein, UlfThin layer chromatographyLichens, Ascomycota (mycobiont); Lichens were determined according to Wirth et al. (2013). Morphologically critical species of the genus Cladonia where additionally analyzed by thin-layer chromatography according to (Culberson and Ammann 1979) in solvent system A
31Cladonia foliaceaC. foliaceaSchiefelbein, UlfThin layer chromatographyLichens, Ascomycota (mycobiont); Lichens were determined according to Wirth et al. (2013). Morphologically critical species of the genus Cladonia where additionally analyzed by thin-layer chromatography according to (Culberson and Ammann 1979) in solvent system A
32Cladonia furcataC. furcataSchiefelbein, UlfThin layer chromatographyLichens, Ascomycota (mycobiont); Lichens were determined according to Wirth et al. (2013). Morphologically critical species of the genus Cladonia where additionally analyzed by thin-layer chromatography according to (Culberson and Ammann 1979) in solvent system A
33Cladonia glaucaC. glaucaSchiefelbein, UlfThin layer chromatographyLichens, Ascomycota (mycobiont); Lichens were determined according to Wirth et al. (2013). Morphologically critical species of the genus Cladonia where additionally analyzed by thin-layer chromatography according to (Culberson and Ammann 1979) in solvent system A
34Cladonia gracilisC. gracilisSchiefelbein, UlfThin layer chromatographyLichens, Ascomycota (mycobiont); Lichens were determined according to Wirth et al. (2013). Morphologically critical species of the genus Cladonia where additionally analyzed by thin-layer chromatography according to (Culberson and Ammann 1979) in solvent system A
35Cladonia humilisC. humilisSchiefelbein, UlfThin layer chromatographyLichens, Ascomycota (mycobiont); Lichens were determined according to Wirth et al. (2013). Morphologically critical species of the genus Cladonia where additionally analyzed by thin-layer chromatography according to (Culberson and Ammann 1979) in solvent system A
36Cladonia macilentaC. macilentaSchiefelbein, UlfThin layer chromatographyLichens, Ascomycota (mycobiont); Lichens were determined according to Wirth et al. (2013). Morphologically critical species of the genus Cladonia where additionally analyzed by thin-layer chromatography according to (Culberson and Ammann 1979) in solvent system A
37Cladonia novochlorophaeaC. novochlorophaeaSchiefelbein, UlfThin layer chromatographyLichens, Ascomycota (mycobiont); Lichens were determined according to Wirth et al. (2013). Morphologically critical species of the genus Cladonia where additionally analyzed by thin-layer chromatography according to (Culberson and Ammann 1979) in solvent system A
38Cladonia phyllophoraC. phyllophoraSchiefelbein, UlfThin layer chromatographyLichens, Ascomycota (mycobiont); Lichens were determined according to Wirth et al. (2013). Morphologically critical species of the genus Cladonia where additionally analyzed by thin-layer chromatography according to (Culberson and Ammann 1979) in solvent system A
39Cladonia portentosaC. portentosaSchiefelbein, UlfThin layer chromatographyLichens, Ascomycota (mycobiont); Lichens were determined according to Wirth et al. (2013). Morphologically critical species of the genus Cladonia where additionally analyzed by thin-layer chromatography according to (Culberson and Ammann 1979) in solvent system A
40Cladonia ramulosaC. ramulosaSchiefelbein, UlfThin layer chromatographyLichens, Ascomycota (mycobiont); Lichens were determined according to Wirth et al. (2013). Morphologically critical species of the genus Cladonia where additionally analyzed by thin-layer chromatography according to (Culberson and Ammann 1979) in solvent system A
41Cladonia rangiformisC. rangiformisSchiefelbein, UlfThin layer chromatographyLichens, Ascomycota (mycobiont); Lichens were determined according to Wirth et al. (2013). Morphologically critical species of the genus Cladonia where additionally analyzed by thin-layer chromatography according to (Culberson and Ammann 1979) in solvent system A
42Cladonia reiC. reiSchiefelbein, UlfThin layer chromatographyLichens, Ascomycota (mycobiont); Lichens were determined according to Wirth et al. (2013). Morphologically critical species of the genus Cladonia where additionally analyzed by thin-layer chromatography according to (Culberson and Ammann 1979) in solvent system A
43Cladonia scabriusculaC. scabriusculaSchiefelbein, UlfThin layer chromatographyLichens, Ascomycota (mycobiont); Lichens were determined according to Wirth et al. (2013). Morphologically critical species of the genus Cladonia where additionally analyzed by thin-layer chromatography according to (Culberson and Ammann 1979) in solvent system A
44Cladonia subulataC. subulataSchiefelbein, UlfThin layer chromatographyLichens, Ascomycota (mycobiont); Lichens were determined according to Wirth et al. (2013). Morphologically critical species of the genus Cladonia where additionally analyzed by thin-layer chromatography according to (Culberson and Ammann 1979) in solvent system A
45Cladonia uncialis ssp. biuncialisC. uncialis ssp. biuncialisSchiefelbein, UlfThin layer chromatographyLichens, Ascomycota (mycobiont); Lichens were determined according to Wirth et al. (2013). Morphologically critical species of the genus Cladonia where additionally analyzed by thin-layer chromatography according to (Culberson and Ammann 1979) in solvent system A
46Coccomyxa sp.Coccomyxa sp.Mikahailyuk, TatianaLight microscope, Olympus Ltd, BX53, with Nomarski DIC opticsChlorophyta; Morphological examinations were performed using Olympus BX53 light microscope with Nomarski DIC optics (Olympus Ltd, Hamburg, Germany)
47Coelastrella sp.Coelastrella sp.Mikahailyuk, TatianaLight microscope, Olympus Ltd, BX53, with Nomarski DIC opticsChlorophyta; Morphological examinations were performed using Olympus BX53 light microscope with Nomarski DIC optics (Olympus Ltd, Hamburg, Germany)
48Cylindrocystis cf. crassaC. cf. crassaMikahailyuk, TatianaLight microscope, Olympus Ltd, BX53, with Nomarski DIC opticsStreptophyta/Charophyta; Morphological examinations were performed using Olympus BX53 light microscope with Nomarski DIC optics (Olympus Ltd, Hamburg, Germany)
49Cylindrocystis sp.Cylindrocystis sp.Mikahailyuk, TatianaLight microscope, Olympus Ltd, BX53, with Nomarski DIC opticsStreptophyta/Charophyta; Morphological examinations were performed using Olympus BX53 light microscope with Nomarski DIC optics (Olympus Ltd, Hamburg, Germany)
50Dicranum scopariumD. scopariumDolnik, ChristianLight microscopeMosses, Bryophyta; microscope with a maximum magnification of 400x was used. Morphological identification of mosses followed Frahm and Frey (2004) with taxonomical reference to (Hodgetts et al. 2020).
51Diplosphaera chodatiiD. chodatiiMikahailyuk, TatianaLight microscope, Olympus Ltd, BX53, with Nomarski DIC opticsChlorophyta; Morphological examinations were performed using Olympus BX53 light microscope with Nomarski DIC optics (Olympus Ltd, Hamburg, Germany)
52Elliptochloris subsphaericaE. subsphaericaMikahailyuk, TatianaLight microscope, Olympus Ltd, BX53, with Nomarski DIC opticsChlorophyta; Morphological examinations were performed using Olympus BX53 light microscope with Nomarski DIC optics (Olympus Ltd, Hamburg, Germany)
53Eremochloris sp.Eremochloris sp.Mikahailyuk, TatianaLight microscope, Olympus Ltd, BX53, with Nomarski DIC opticsChlorophyta; Morphological examinations were performed using Olympus BX53 light microscope with Nomarski DIC optics (Olympus Ltd, Hamburg, Germany)
54Evernia prunastriE. prunastriSchiefelbein, UlfThin layer chromatographyLichens, Ascomycota (mycobiont); Lichens were determined according to Wirth et al. (2013). Morphologically critical species of the genus Cladonia where additionally analyzed by thin-layer chromatography according to (Culberson and Ammann 1979) in solvent system A
55Hennediella heimiiH. heimiiDolnik, ChristianLight microscopeMosses, Bryophyta; microscope with a maximum magnification of 400x was used. Morphological identification of mosses followed Frahm and Frey (2004) with taxonomical reference to (Hodgetts et al. 2020).
56Hypnum cupressiformeH. cupressiformeDolnik, ChristianLight microscopeMosses, Bryophyta; microscope with a maximum magnification of 400x was used. Morphological identification of mosses followed Frahm and Frey (2004) with taxonomical reference to (Hodgetts et al. 2020).
57Hypnum cupressiforme var. lacunosumH. cupressiforme var. lacunosumDolnik, ChristianLight microscopeMosses, Bryophyta; microscope with a maximum magnification of 400x was used. Morphological identification of mosses followed Frahm and Frey (2004) with taxonomical reference to (Hodgetts et al. 2020).
58Hypnum jutlandicumH. jutlandicumDolnik, ChristianLight microscopeMosses, Bryophyta; microscope with a maximum magnification of 400x was used. Morphological identification of mosses followed Frahm and Frey (2004) with taxonomical reference to (Hodgetts et al. 2020).
59Hypogymnia physodesH. physodesSchiefelbein, UlfThin layer chromatographyLichens, Ascomycota (mycobiont); Lichens were determined according to Wirth et al. (2013). Morphologically critical species of the genus Cladonia where additionally analyzed by thin-layer chromatography according to (Culberson and Ammann 1979) in solvent system A
60Interfilum cf. massjukiaeI. cf. massjukiaeMikahailyuk, TatianaLight microscope, Olympus Ltd, BX53, with Nomarski DIC opticsStreptophyta/Charophyta; Morphological examinations were performed using Olympus BX53 light microscope with Nomarski DIC optics (Olympus Ltd, Hamburg, Germany)
61Interfilum terricolaI. terricolaMikahailyuk, TatianaLight microscope, Olympus Ltd, BX53, with Nomarski DIC opticsStreptophyta/Charophyta; Morphological examinations were performed using Olympus BX53 light microscope with Nomarski DIC optics (Olympus Ltd, Hamburg, Germany)
62Klebsormidium cf. flaccidumK. cf. flaccidumMikahailyuk, TatianaLight microscope, Olympus Ltd, BX53, with Nomarski DIC opticsStreptophyta/Charophyta; Morphological examinations were performed using Olympus BX53 light microscope with Nomarski DIC optics (Olympus Ltd, Hamburg, Germany)
63Klebsormidium cf. subtileK. cf. subtileMikahailyuk, TatianaLight microscope, Olympus Ltd, BX53, with Nomarski DIC opticsStreptophyta/Charophyta; Morphological examinations were performed using Olympus BX53 light microscope with Nomarski DIC optics (Olympus Ltd, Hamburg, Germany)
64Klebsormidium crenulatumK. crenulatumMikahailyuk, TatianaLight microscope, Olympus Ltd, BX53, with Nomarski DIC opticsStreptophyta/Charophyta; Morphological examinations were performed using Olympus BX53 light microscope with Nomarski DIC optics (Olympus Ltd, Hamburg, Germany)
65Lecania cyrtellaL. cyrtellaSchiefelbein, UlfThin layer chromatographyLichens, Ascomycota (mycobiont); Lichens were determined according to Wirth et al. (2013). Morphologically critical species of the genus Cladonia where additionally analyzed by thin-layer chromatography according to (Culberson and Ammann 1979) in solvent system A
66Lecanora hageniiL. hageniiSchiefelbein, UlfThin layer chromatographyLichens, Ascomycota (mycobiont); Lichens were determined according to Wirth et al. (2013). Morphologically critical species of the genus Cladonia where additionally analyzed by thin-layer chromatography according to (Culberson and Ammann 1979) in solvent system A
67Lecanora persimilisL. persimilisSchiefelbein, UlfThin layer chromatographyLichens, Ascomycota (mycobiont); Lichens were determined according to Wirth et al. (2013). Morphologically critical species of the genus Cladonia where additionally analyzed by thin-layer chromatography according to (Culberson and Ammann 1979) in solvent system A
68Leptolyngbya sp.Leptolyngbya sp.Mikahailyuk, TatianaLight microscope, Olympus Ltd, BX53, with Nomarski DIC opticsCyanobacteria; Morphological examinations were performed using Olympus BX53 light microscope with Nomarski DIC optics (Olympus Ltd, Hamburg, Germany)
69Lobochlamys sp.Lobochlamys sp.Mikahailyuk, TatianaLight microscope, Olympus Ltd, BX53, with Nomarski DIC opticsChlorophyta; Morphological examinations were performed using Olympus BX53 light microscope with Nomarski DIC optics (Olympus Ltd, Hamburg, Germany)
70Lophozia bicuspidataL. bicuspidataDolnik, ChristianLight microscopeMosses, Marchantiophyta; microscope with a maximum magnification of 400x was used. Morphological identification of mosses followed Frahm and Frey (2004) with taxonomical reference to (Hodgetts et al. 2020).
71Macrochloris sp.Macrochloris sp.Mikahailyuk, TatianaLight microscope, Olympus Ltd, BX53, with Nomarski DIC opticsChlorophyta; Morphological examinations were performed using Olympus BX53 light microscope with Nomarski DIC optics (Olympus Ltd, Hamburg, Germany)
72Micarea misellaM. misellaSchiefelbein, UlfThin layer chromatographyLichens, Ascomycota (mycobiont); Lichens were determined according to Wirth et al. (2013). Morphologically critical species of the genus Cladonia where additionally analyzed by thin-layer chromatography according to (Culberson and Ammann 1979) in solvent system A
73Microcoleus vaginatusM. vaginatusMikahailyuk, TatianaLight microscope, Olympus Ltd, BX53, with Nomarski DIC opticsCyanobacteria; Morphological examinations were performed using Olympus BX53 light microscope with Nomarski DIC optics (Olympus Ltd, Hamburg, Germany)
74Myrmecia cf. irregularisM. cf. irregularisMikahailyuk, TatianaLight microscope, Olympus Ltd, BX53, with Nomarski DIC opticsChlorophyta; Morphological examinations were performed using Olympus BX53 light microscope with Nomarski DIC optics (Olympus Ltd, Hamburg, Germany)
75Nannochloris sp.Nannochloris sp.Mikahailyuk, TatianaLight microscope, Olympus Ltd, BX53, with Nomarski DIC opticsChlorophyta; Morphological examinations were performed using Olympus BX53 light microscope with Nomarski DIC optics (Olympus Ltd, Hamburg, Germany)
76Nodosilinea cf. epilithicaN. cf. epilithicaMikahailyuk, TatianaLight microscope, Olympus Ltd, BX53, with Nomarski DIC opticsCyanobacteria; Morphological examinations were performed using Olympus BX53 light microscope with Nomarski DIC optics (Olympus Ltd, Hamburg, Germany)
77Nostoc cf. communeN. cf. communeMikahailyuk, TatianaLight microscope, Olympus Ltd, BX53, with Nomarski DIC opticsCyanobacteria; Morphological examinations were performed using Olympus BX53 light microscope with Nomarski DIC optics (Olympus Ltd, Hamburg, Germany)
78Nostoc cf. edaphicumN. cf. edaphicumMikahailyuk, TatianaLight microscope, Olympus Ltd, BX53, with Nomarski DIC opticsCyanobacteria; Morphological examinations were performed using Olympus BX53 light microscope with Nomarski DIC optics (Olympus Ltd, Hamburg, Germany)
79Nostoc cf. linckiaN. cf. linckiaMikahailyuk, TatianaLight microscope, Olympus Ltd, BX53, with Nomarski DIC opticsCyanobacteria; Morphological examinations were performed using Olympus BX53 light microscope with Nomarski DIC optics (Olympus Ltd, Hamburg, Germany)
80Nostoc sp.Nostoc sp.Mikahailyuk, TatianaLight microscope, Olympus Ltd, BX53, with Nomarski DIC opticsCyanobacteria; Morphological examinations were performed using Olympus BX53 light microscope with Nomarski DIC optics (Olympus Ltd, Hamburg, Germany)
81Oxyrrhynchium praelongumO. praelongumDolnik, ChristianLight microscopeMosses, Bryophyta; microscope with a maximum magnification of 400x was used. Morphological identification of mosses followed Frahm and Frey (2004) with taxonomical reference to (Hodgetts et al. 2020).
82Parietochloris cf. alveolarisP. cf. alveolarisMikahailyuk, TatianaLight microscope, Olympus Ltd, BX53, with Nomarski DIC opticsChlorophyta; Morphological examinations were performed using Olympus BX53 light microscope with Nomarski DIC optics (Olympus Ltd, Hamburg, Germany)
83Parmelia sulcataP. sulcataSchiefelbein, UlfThin layer chromatographyLichens, Ascomycota (mycobiont); Lichens were determined according to Wirth et al. (2013). Morphologically critical species of the genus Cladonia where additionally analyzed by thin-layer chromatography according to (Culberson and Ammann 1979) in solvent system A
84Peltigera extenuataP. extenuataSchiefelbein, UlfThin layer chromatographyLichens, Ascomycota (mycobiont); Lichens were determined according to Wirth et al. (2013). Morphologically critical species of the genus Cladonia where additionally analyzed by thin-layer chromatography according to (Culberson and Ammann 1979) in solvent system A
85Peltigera hymeniaP. hymeniaSchiefelbein, UlfThin layer chromatographyLichens, Ascomycota (mycobiont); Lichens were determined according to Wirth et al. (2013). Morphologically critical species of the genus Cladonia where additionally analyzed by thin-layer chromatography according to (Culberson and Ammann 1979) in solvent system A
86Physcia tenellaP. tenellaSchiefelbein, UlfThin layer chromatographyLichens, Ascomycota (mycobiont); Lichens were determined according to Wirth et al. (2013). Morphologically critical species of the genus Cladonia where additionally analyzed by thin-layer chromatography according to (Culberson and Ammann 1979) in solvent system A
87Placynthiella uliginosaP. uliginosaSchiefelbein, UlfThin layer chromatographyLichens, Ascomycota (mycobiont); Lichens were determined according to Wirth et al. (2013). Morphologically critical species of the genus Cladonia where additionally analyzed by thin-layer chromatography according to (Culberson and Ammann 1979) in solvent system A
88Planophila sp.Planophila sp.Mikahailyuk, TatianaLight microscope, Olympus Ltd, BX53, with Nomarski DIC opticsChlorophyta; Morphological examinations were performed using Olympus BX53 light microscope with Nomarski DIC optics (Olympus Ltd, Hamburg, Germany)
89Pleurozium schreberiP. schreberiDolnik, ChristianLight microscopeMosses, Bryophyta; microscope with a maximum magnification of 400x was used. Morphological identification of mosses followed Frahm and Frey (2004) with taxonomical reference to (Hodgetts et al. 2020).
90Pohlia nutansP. nutansDolnik, ChristianLight microscopeMosses, Bryophyta; microscope with a maximum magnification of 400x was used. Morphological identification of mosses followed Frahm and Frey (2004) with taxonomical reference to (Hodgetts et al. 2020).
91Polytrichum juniperinumP. juniperinumDolnik, ChristianLight microscopeMosses, Bryophyta; microscope with a maximum magnification of 400x was used. Morphological identification of mosses followed Frahm and Frey (2004) with taxonomical reference to (Hodgetts et al. 2020).
92Polytrichum piliferumP. piliferumDolnik, ChristianLight microscopeMosses, Bryophyta; microscope with a maximum magnification of 400x was used. Morphological identification of mosses followed Frahm and Frey (2004) with taxonomical reference to (Hodgetts et al. 2020).
93Pseudochlorella sp.Pseudochlorella sp.Mikahailyuk, TatianaLight microscope, Olympus Ltd, BX53, with Nomarski DIC opticsChlorophyta; Morphological examinations were performed using Olympus BX53 light microscope with Nomarski DIC optics (Olympus Ltd, Hamburg, Germany)
94Pseudomuriella cf. aurantiacaP. cf. aurantiacaMikahailyuk, TatianaLight microscope, Olympus Ltd, BX53, with Nomarski DIC opticsChlorophyta; Morphological examinations were performed using Olympus BX53 light microscope with Nomarski DIC optics (Olympus Ltd, Hamburg, Germany)
95Pseudoscleropodium purumP. purumDolnik, ChristianLight microscopeMosses, Bryophyta; microscope with a maximum magnification of 400x was used. Morphological identification of mosses followed Frahm and Frey (2004) with taxonomical reference to (Hodgetts et al. 2020).
96Ptilidium ciliatumP. ciliatumDolnik, ChristianLight microscopeMosses, Marchantiophyta; microscope with a maximum magnification of 400x was used. Morphological identification of mosses followed Frahm and Frey (2004) with taxonomical reference to (Hodgetts et al. 2020).
97Ptychostomum capillareP. capillareDolnik, ChristianLight microscopeMosses, Bryophyta; microscope with a maximum magnification of 400x was used. Morphological identification of mosses followed Frahm and Frey (2004) with taxonomical reference to (Hodgetts et al. 2020).
98Ptychostomum compactumP. compactumDolnik, ChristianLight microscopeMosses, Bryophyta; microscope with a maximum magnification of 400x was used. Morphological identification of mosses followed Frahm and Frey (2004) with taxonomical reference to (Hodgetts et al. 2020).
99Ptychostomum imbricatulumP. imbricatulumDolnik, ChristianLight microscopeMosses, Bryophyta; microscope with a maximum magnification of 400x was used. Morphological identification of mosses followed Frahm and Frey (2004) with taxonomical reference to (Hodgetts et al. 2020).
100Ptychostomum moravicumP. moravicumDolnik, ChristianLight microscopeMosses, Bryophyta; microscope with a maximum magnification of 400x was used. Morphological identification of mosses followed Frahm and Frey (2004) with taxonomical reference to (Hodgetts et al. 2020).
101Racomitrium canescensR. canescensDolnik, ChristianLight microscopeMosses, Bryophyta; microscope with a maximum magnification of 400x was used. Morphological identification of mosses followed Frahm and Frey (2004) with taxonomical reference to (Hodgetts et al. 2020).
102Racomitrium elongatumR. elongatumDolnik, ChristianLight microscopeMosses, Bryophyta; microscope with a maximum magnification of 400x was used. Morphological identification of mosses followed Frahm and Frey (2004) with taxonomical reference to (Hodgetts et al. 2020).
103Scoliciosporum galluraeS. galluraeSchiefelbein, UlfThin layer chromatographyLichens, Ascomycota (mycobiont); Lichens were determined according to Wirth et al. (2013). Morphologically critical species of the genus Cladonia where additionally analyzed by thin-layer chromatography according to (Culberson and Ammann 1979) in solvent system A
104Spongiochloris sp.Spongiochloris sp.Mikahailyuk, TatianaLight microscope, Olympus Ltd, BX53, with Nomarski DIC opticsChlorophyta; Morphological examinations were performed using Olympus BX53 light microscope with Nomarski DIC optics (Olympus Ltd, Hamburg, Germany)
105Stenomitos sp.Stenomitos sp.Mikahailyuk, TatianaLight microscope, Olympus Ltd, BX53, with Nomarski DIC opticsCyanobacteria; Morphological examinations were performed using Olympus BX53 light microscope with Nomarski DIC optics (Olympus Ltd, Hamburg, Germany)
106Stichococcus allasS. allasMikahailyuk, TatianaLight microscope, Olympus Ltd, BX53, with Nomarski DIC opticsChlorophyta; Morphological examinations were performed using Olympus BX53 light microscope with Nomarski DIC optics (Olympus Ltd, Hamburg, Germany)
107Stichococcus cf. bacillarisS. cf. bacillarisMikahailyuk, TatianaLight microscope, Olympus Ltd, BX53, with Nomarski DIC opticsChlorophyta; Morphological examinations were performed using Olympus BX53 light microscope with Nomarski DIC optics (Olympus Ltd, Hamburg, Germany)
108Syntrichia ruraliformisS. ruraliformisDolnik, ChristianLight microscopeMosses, Bryophyta; microscope with a maximum magnification of 400x was used. Morphological identification of mosses followed Frahm and Frey (2004) with taxonomical reference to (Hodgetts et al. 2020).
109Tetracystis cf. sarcinalisT. cf. sarcinalisMikahailyuk, TatianaLight microscope, Olympus Ltd, BX53, with Nomarski DIC opticsChlorophyta; Morphological examinations were performed using Olympus BX53 light microscope with Nomarski DIC optics (Olympus Ltd, Hamburg, Germany)
110Tetradesmus arenicolaT. arenicolaMikahailyuk, TatianaLight microscope, Olympus Ltd, BX53, with Nomarski DIC opticsChlorophyta; Morphological examinations were performed using Olympus BX53 light microscope with Nomarski DIC optics (Olympus Ltd, Hamburg, Germany)
111Timaviella sp.Timaviella sp.Mikahailyuk, TatianaLight microscope, Olympus Ltd, BX53, with Nomarski DIC opticsCyanobacteria; Morphological examinations were performed using Olympus BX53 light microscope with Nomarski DIC optics (Olympus Ltd, Hamburg, Germany)
112Tolypothrix cf. byssoideaT. cf. byssoideaMikahailyuk, TatianaLight microscope, Olympus Ltd, BX53, with Nomarski DIC opticsCyanobacteria; Morphological examinations were performed using Olympus BX53 light microscope with Nomarski DIC optics (Olympus Ltd, Hamburg, Germany)
113Watanabea cf. acidophilaW. cf. acidophilaMikahailyuk, TatianaLight microscope, Olympus Ltd, BX53, with Nomarski DIC opticsChlorophyta; Morphological examinations were performed using Olympus BX53 light microscope with Nomarski DIC optics (Olympus Ltd, Hamburg, Germany)
114Xanthoria parietinaX. parietinaSchiefelbein, UlfThin layer chromatographyLichens, Ascomycota (mycobiont); Lichens were determined according to Wirth et al. (2013). Morphologically critical species of the genus Cladonia where additionally analyzed by thin-layer chromatography according to (Culberson and Ammann 1979) in solvent system A
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Creative Commons Attribution 4.0 International (CC-BY-4.0)
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Curation Level: Enhanced curation (CurationLevelC)
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1962 data points

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